Glucose and oxygen are the reactants. In humans glucose comes from digested food, and oxygen is breathed in from the air. In plants, glucose is made in photosynthesis, and oxygen diffuses in from the air.
Glucose comes from sugar in food. Oxygen comes from air we breath in. Water comes from water we drink. Carbon dioxide comes from gas we breath out. Enery comes from glucose absorbed in the small intestine.
Oxygen is involved in the final stage of energy metabolism, specifically during aerobic respiration. In this process, oxygen serves as the final electron acceptor in the electron transport chain, allowing the production of ATP (energy) from the breakdown of glucose or fatty acids. Without oxygen, cells cannot efficiently generate energy through aerobic respiration and may resort to less efficient anaerobic pathways.
The cristae are folds in the inner membrane of mitochondria where most ATP synthesis occurs through the process of oxidative phosphorylation. This is where enzymes and molecules involved in the electron transport chain are located, allowing for efficient production of ATP.
Both acids and bases can react with solid substances to form salts. Acids can dissolve certain solids, while bases can react with solids to form new compounds through processes like neutralization or dissolution. The specific reactivity and behavior will depend on the properties of the acid, base, and solid substance involved.
Acids can feel soapy because they can react with oils and fats on the skin to form soap-like substances called salts. This reaction can create a slippery or soapy feeling when acids come into contact with the skin.
Glucose and oxygen enter a cell's cytoplasm for aerobic cellular respiration.
Glucose comes from the food you eat.
If by respiration you mean breathing, the substance coming in is oxygen.
Anaerobic respiration likely evolved before aerobic respiration. Anaerobic pathways are considered more ancient and can be traced back to early prokaryotic organisms. Aerobic respiration evolved later as a more efficient process that became advantageous with the presence of oxygen in Earth's atmosphere.
No. The cell's energy comes from the mitochondria, which are the site of aerobic cellular respiration.
No. A cell's energy comes from the mitochondria, which are the site of aerobic cellular respiration.
In aerobic respiration, approximately 30-32 molecules of ATP are produced per molecule of glucose, while in anaerobic respiration (specifically during glycolysis), only 2 molecules of ATP are produced per molecule of glucose.
The aerobic phase of respiration, which is the electron transport chain and oxidative phosphorylation, generates approximately 34 to 38 molecules of ATP per molecule of glucose through the process of chemiosmosis.
Substances that can react with gasoline include oxygen, heat, and sparks. When these substances come into contact with gasoline, they can lead to combustion or explosion, posing a fire hazard. It is important to handle gasoline with care and follow safety guidelines to prevent accidents.
The equation is C6H12O6 + 6 O2 = 6 CO2 + 6 H2O + between 36-38 ATP Carbon dioxide, water, and ATP are the end products
Respiration releases energy for use in life processes. There are two types of respiration, aerobic (uses oxygen) and anaerobic (does not use oxygen). Respiration can produce useful products that have uses in a range of industries.
36 - 38 ATP from aerobic cellular respiration.